M.Tech in Power Electronics is a two-year full-time professional program in the technological field of power electronics. It is an industry-oriented curriculum that covers the subjects of electrical engineering and teaches about the analysis, design, integration, and operation of motor drives and machines. Mtech Power Electronics is a study of microprocessors and microcontrollers and their applications in the field of power electronics engineering. The whole Mtech Power Electronics course is built on practical applications such as developing and building a power conversion system. After completing an MTech, candidates interested in power electronics research can pursue a PhD in the same specialty.
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M.Tech in Power Electronics Course Highlight
| Degree | Master |
| Full Form | Master of Technology |
| Admission Process | Entrance and Merit-based |
| Eligibility Criteria | A minimum of 50% marks in graduation course from a recognized university |
| Average Course Fee | INR 1 lakh to INR 5 lakhs |
| Duration | 2 Years |
| Average Salary | INR 4-20 LPA |
| Job Roles | Technician, Engineer Trainee, Senior Management Staff, Regulatory Officer, Engineering Executive, Junior Engineer, etc. |
Why Pursue an M.Tech in Power Electronics?
Here are some compelling reasons to pursue this advanced degree:
- Specialized Expertise: An M.Tech in Power Electronics equips you with advanced knowledge in converting and controlling electrical power, essential for designing energy-efficient systems.
- Industry Demand: Industries such as renewable energy, electric vehicles, and smart grids have a high demand for professionals with expertise in power electronics, creating abundant career prospects.
- Innovation Hub: With the increasing focus on clean energy solutions, an M.Tech in Power Electronics positions you at the forefront of innovation in tackling global energy challenges.
- Research Opportunities: Pursuing this degree opens doors to cutting-edge research in power electronics, contributing to the development of next-generation energy technologies
What is the M.Tech in Power Electronics Admission Process in India?
To pursue an M.Tech in Power Electronics in India, follow these steps for a smooth admission process:
To begin, aspiring students must meet the eligibility criteria set by the respective universities or institutions offering the program. This usually includes having a relevant undergraduate degree in electrical engineering or a related field. Once eligibility is confirmed, candidates need to fill out the application form with accurate information and submit it before the deadline. Some institutes may also require applicants to take an entrance exam specific to the field of power electronics. After the application review process, shortlisted candidates may be called for further rounds, which could include a personal interview or written test to assess their knowledge and aptitude for the program. Finally, successful candidates will receive admission offers based on their performance in the entrance exam and other selection criteria.
What is the M.Tech in Power Electronics Eligibility?
In India, the eligibility criteria for pursuing an M.Tech in Power Electronics typically include:
- Candidates must have a bachelor’s degree in electrical engineering, electronics engineering, or related fields from a recognized university.
- A minimum aggregate score of 50% or higher in the qualifying exam is usually required.
- Some universities may also have specific entrance exams that candidates need to clear to be eligible for the M.Tech program.
- Work experience in the field of power electronics can be an added advantage during the selection process.
Top M.Tech in Power Electronics Colleges in India
| Indian Institute of Technology (IIT) – Delhi | Indian Institute of Technology (IIT) – Bombay |
| NIT Warangal | IIIT Hyderabad |
| IISc Bangalore | VIT Vellore |
| PSG College of Technology | Manipal Institute of Technology |
| SRM University | Thapar Institute of Engineering and Technology |
What is the M.Tech in Power Electronics Course Syllabus?
| Semester 1 | Semester 2 |
|---|---|
| Circuit Theory and Network Analysis | Pulse and Digital Circuits |
| Power Semiconductor Devices | Electrical Machinery |
| Analog Electronics | Power Converters |
| Digital Electronics | Embedded Systems |
| Power Electronics | Elective I |
| Control Systems | – |
| Semester 3 | Semester 4 |
|---|---|
| Flexible AC Transmission Systems | Industrial Drives and Applications |
| High Voltage DC Transmission | Renewable Energy Systems |
| Power Quality | Project Work |
| Elective II | – |
| Elective III | – |
M.Tech in Power Electronics: Recommended Books
| Name of the Book | Name of the Author |
|---|---|
| Power Electronics: Converters, Applications, and Design | Ned Mohan, Tore M. Undeland, and William P. Robbins |
| Power Electronics Handbook | Muhammad H. Rashid |
| Power Electronics: Principles and Applications | Joseph Vithayathil and James K. Nowinski |
| Switch-Mode Power Supplies: SPICE Simulations and Practical Designs | Christophe Basso |
M.Tech in Power Electronics Jobs and Salary in India
| Job Role | Average Salary (per year) |
|---|---|
| Power Electronics Engineer | INR 6-8 lakhs |
| Research Scientist | INR 10-12 lakhs |
| Control Systems Engineer | INR 7-9 lakhs |
| Renewable Energy Specialist | INR 8-10 lakhs |
| Electrical Design Engineer | INR 5-7 lakhs |
M.Tech in Power Electronics: FAQs with Answers
Is pursuing an M.Tech in Power Electronics worth it?
Absolutely. This advanced degree equips you with the knowledge and skills to innovate and revolutionize the energy sector.
What career opportunities are available after completing an M.Tech in Power Electronics?
Upon graduation, you can explore roles such as Power Electronics Engineer, Renewable Energy Specialist, or Research Scientist in the field of energy systems.
How does an M.Tech in Power Electronics contribute to the future of energy?
With a focus on renewable energy sources and efficient power conversion, graduates play a crucial role in developing sustainable energy solutions for the future.
What are the key areas of study in an M.Tech in Power Electronics program?
The curriculum typically covers subjects like Advanced Power Semiconductor Devices, Smart Grid Technologies, Energy Storage Systems, and Power Quality Improvement techniques.
How can an M.Tech in Power Electronics drive innovation in the energy sector?
Through research and development projects, graduates can design cutting-edge technologies that optimize power distribution, reduce energy waste, and enhance overall system efficiency.
